/*
 * Licensed to the Apache Software Foundation (ASF) under one
 * or more contributor license agreements.  See the NOTICE file
 * distributed with this work for additional information
 * regarding copyright ownership.  The ASF licenses this file
 * to you under the Apache License, Version 2.0 (the
 * "License"); you may not use this file except in compliance
 * with the License.  You may obtain a copy of the License at
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

package org.apache.jena.dboe.transaction.txn;

import static org.apache.jena.dboe.transaction.txn.TxnState.ABORTED;
import static org.apache.jena.dboe.transaction.txn.TxnState.ACTIVE;
import static org.apache.jena.dboe.transaction.txn.TxnState.COMMIT;
import static org.apache.jena.dboe.transaction.txn.TxnState.COMMITTED;
import static org.apache.jena.dboe.transaction.txn.TxnState.DETACHED;
import static org.apache.jena.dboe.transaction.txn.TxnState.END_ABORTED;
import static org.apache.jena.dboe.transaction.txn.TxnState.END_COMMITTED;
import static org.apache.jena.dboe.transaction.txn.TxnState.INACTIVE;
import static org.apache.jena.dboe.transaction.txn.TxnState.PREPARE;

import java.util.List;
import java.util.Objects;
import java.util.concurrent.atomic.AtomicReference;

import org.apache.jena.query.ReadWrite;
import org.apache.jena.query.TxnType;

/**
 * A transaction as the composition of actions on components.
 * Works in conjunction with the TransactionCoordinator
 * to provide the transaction lifecycle.
 * @see TransactionCoordinator
 * @see TransactionalComponent
 */
final
public class Transaction implements TransactionInfo {
    // Using an AtomicReference<TxnState> requires that
    // TransactionalComponentLifecycle.internalComplete
    // frees the thread local for the threadTxn, otherwise memory
    // usage grows. If a plain member variable is used slow growth
    // is still seen.
    // Nulling txnMgr and clearing components stops that slow growth.

    private TransactionCoordinator txnMgr;
    private final TxnId txnId;
    private final List<SysTrans> components;

    // Using an AtomicReference makes this observable from the outside.
    // It also allow for multithreaded transactions (later).
    private final AtomicReference<TxnState> state = new AtomicReference<>();
    //private TxnState state;
    private final long dataVersion;
    private final TxnType txnType;
    private ReadWrite mode;

    public Transaction(TransactionCoordinator txnMgr, TxnType txnType, ReadWrite readWrite, TxnId txnId, long dataVersion, List<SysTrans> components) {
        Objects.requireNonNull(txnMgr);
        Objects.requireNonNull(txnId);
        Objects.requireNonNull(readWrite);
        Objects.requireNonNull(components);
        this.txnMgr = txnMgr;
        this.txnId = txnId;
        this.txnType = txnType;
        this.mode = readWrite;
        this.dataVersion = dataVersion;
        this.components = components;
        setState(INACTIVE);
    }

//    /*package*/ void resetDataVersion(long dataVersion) {
//        this.dataVersion = dataVersion;
//    }

    /*package*/ void setState(TxnState newState) {
        state.set(newState);
    }

    @Override
    public TxnState getState() {
        return state.get();
    }

    /**
     * Each transaction is allocated a serialization point by the transaction
     * coordinator. Normally, this is related to this number and it increases
     * over time as the data changes. Two readers can have the same
     * serialization point - they are working with the same view of the data.
     */
    @Override
    public long getDataVersion() {
        return dataVersion;
    }

    public void begin() {
        checkState(INACTIVE);
        components.forEach((c) -> c.begin());
        setState(ACTIVE);
    }

    private boolean promoteReadCommitted() {
        if ( txnType == TxnType.READ_COMMITTED_PROMOTE ) return true;
        if ( txnType == TxnType.READ_PROMOTE ) return false;
        return false;
    }

    public boolean promote() {
        return promote(promoteReadCommitted());
    }

    public boolean promote(boolean readCommitted) {
        checkState(ACTIVE);
        if ( txnType == TxnType.READ )
            return false;
        boolean b = txnMgr.executePromote(this, readCommitted);
        if ( !b )
            return false;
        mode = ReadWrite.WRITE;
        return true;
    }

    /*package*/ void promoteComponents() {
        // Call back from the Transaction coordinator during promote.
        components.forEach((c) -> {
            if ( ! c.promote() )
                throw new TransactionException("Failed to promote");
        });
        mode = ReadWrite.WRITE;
    }

    public void notifyUpdate() {
        checkState(ACTIVE);
        if ( mode == ReadWrite.READ ) {
            promote(promoteReadCommitted());
            mode = ReadWrite.WRITE;
        }
    }

    public void prepare() {
        checkState(ACTIVE);
        if ( mode == ReadWrite.WRITE )
            txnMgr.executePrepare(this);
        setState(PREPARE);
    }

    public void commit() {
        // The commit point is in TransactionCoordinator.executeCommit().
        TxnState s = getState();
        if ( s == ACTIVE )
            // Auto exec prepare().
            prepare();
        checkState(PREPARE);
        setState(COMMIT);
        // Sys abort -> state?
        switch(mode) {
            case WRITE:
                txnMgr.executeCommit(this,
                                     ()->{components.forEach((c) -> c.commit()); } ,
                                     ()->{components.forEach((c) -> c.commitEnd()); },
                                     ()->{components.forEach((c) -> c.abort()); }
                                    );
                break;
            case READ:
                // Different lifecycle?
                txnMgr.executeCommit(this,
                                     ()->{components.forEach((c) -> c.commit()); } ,
                                     ()->{components.forEach((c) -> c.commitEnd()); } ,
                                     ()->{components.forEach((c) -> c.abort()); }
                                    );
                break;
        }
        setState(COMMITTED);
        endInternal();
    }

    public void abort() {
        abort$();
        endInternal();
    }

    private void abort$() {
        // Split into READ and WRITE forms.
        checkState(ACTIVE, ABORTED);
        // Includes notification start/finish
        txnMgr.executeAbort(this, ()-> { components.forEach((c) -> c.abort()); }) ;
        setState(ABORTED);
    }

    public void end() {
        // [1746]
        // txnMgr.executeEnd(thus, ()->{});
        txnMgr.notifyEndStart(this);
        if ( isWriteTxn() && getState() == ACTIVE ) {
            //Log.warn(this, "Write transaction with no commit() or abort() before end()");
            // Just abort process.
            abort$();
            endInternal();
            throw new TransactionException("Write transaction with no commit() or abort() before end() - forced abort");
        }
        endInternal();
        txnMgr.notifyEndFinish(this);
        txnMgr = null;
        //components.clear();
    }

    private void endInternal() {
        if ( hasFinalised() )
            return;
        // Called once, at the first abort/commit/end.
        txnMgr.notifyCompleteStart(this);
        components.forEach((c) -> c.complete());
        txnMgr.completed(this);
        if ( getState() == COMMITTED )
            setState(END_COMMITTED);
        else
            setState(END_ABORTED);
        txnMgr.notifyCompleteFinish(this);
    }

    /*package*/ List<SysTrans> getComponents() {
        return components;
    }

    /*package*/ void detach() {
        checkState(ACTIVE,PREPARE);
        setState(DETACHED);
    }

    /*package*/ void attach() {
        checkState(DETACHED);
        setState(ACTIVE);
    }

    /** Require a WRITE transaction - do not try to promote. */ 
    public void requireWriteTxn() {
        checkState(ACTIVE);
        if ( mode != ReadWrite.WRITE )
            throw new TransactionException("Not a write transaction");
    }

    /** Require a WRITE transaction - includes trying to promote. */ 
    public void ensureWriteTxn() {
        checkState(ACTIVE);
        if ( mode != ReadWrite.WRITE ) {
            boolean b = this.promote();
            if ( ! b )
                throw new TransactionException("Can't become a write transaction");
        }
    }

    @Override
    public boolean hasStarted()   {
        TxnState x = getState();
        return x == INACTIVE;
    }

    @Override
    public boolean hasFinished() {
        TxnState x = getState();
        return x == COMMITTED || x == ABORTED || x == END_COMMITTED || x == END_ABORTED;
    }

    @Override
    public boolean hasFinalised() {
        TxnState x = getState();
        return x == END_COMMITTED || x == END_ABORTED;
    }

    @Override
    public TxnId getTxnId()         { return txnId; }

    @Override
    public TxnType   getTxnType()   { return txnType; }

    @Override
    public ReadWrite getMode()      { return mode; }

    /** Is this a READ transaction?
     * Convenience operation equivalent to {@code (getMode() == READ)}
     */
    @Override
    public boolean isReadTxn()  { return mode == ReadWrite.READ; }

    /** Is this a WRITE transaction?
     * Convenience operation equivalent to {@code (getMode() == WRITE)}
     */
    @Override
    public boolean isWriteTxn()  { return mode == ReadWrite.WRITE; }

    // hashCode/equality
    // These must be object equality.  No two transactions objects are .equals unless they are ==

    private void checkWriteTxn() {
        if ( ! isActiveTxn() || ! isWriteTxn() )
            throw new TransactionException("Not in a write transaction");
    }

    // XXX Duplicate -- TransactionalComponentLifecycle
    private void checkState(TxnState expected) {
        TxnState s = getState();
        if ( s != expected )
            throw new TransactionException("Transaction is in state "+s+": expected state "+expected);
    }

    private void checkState(TxnState expected1, TxnState expected2) {
        TxnState s = getState();
        if ( s != expected1 && s != expected2 )
            throw new TransactionException("Transaction is in state "+s+": expected state "+expected1+" or "+expected2);
    }

    // Avoid varargs ... undue worry?
    private void checkState(TxnState expected1, TxnState expected2, TxnState expected3) {
        TxnState s = getState();
        if ( s != expected1 && s != expected2 && s != expected3 )
            throw new TransactionException("Transaction is in state "+s+": expected state "+expected1+", "+expected2+" or "+expected3);
    }

    @Override
    public boolean isActiveTxn() {
        return getState() != INACTIVE;
    }
}

